non-image forming effects of light: bridging the gap from ... · jamie m. zeitzer, ph.d. assistant...
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Jamie M. Zeitzer, Ph.D. Assistant Professor
Psychiatry and Behavioral Sciences Stanford University
2017 US DOE SOLID-STATE LIGHTING R&D WORKSHOP PLENARY PANEL | CREATING VALUE FROM HUMAN PHYSIOLOGICAL
RESPONSES TO LIGHT
Non-image forming effects of light: Bridging the gap from the lab to
the home
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Lateral Geniculate Nucleus – Intensity contrast
Superior Colliculus – Cross-modal Integration
Hypothalamus – Autonomic Effects, Alertness
Suprachiasmatic Nucleus – Circadian Entrainment
Pretectum – Pupil Constriction
IGL – Integration of Light & Motor Information
Non-image forming effects of light
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Integrated Photoreception
Intrinsically photosensitive retinal ganglion cell (ipRGC)
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Integrated Photoreception
Rods Cones Melanopsin Spectrum 505 nm 555 nm 480 nm Intensity Very low Medium → High High Duration On/Off On/Off Sustained,
integrative History Very short
(seconds) Very short (seconds)
Very long (hours?)
Spatial Low High Very low
Cones
Rods ipRGC Brain targets
extrinsic intrinsic
unified
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Can we exploit differences between the systems?
Rods Cones Melanopsin Spectrum 505 nm 555 nm 480 nm Intensity Very low Medium → High High Duration On/Off On/Off Sustained,
integrative History Very short
(seconds) Very short (seconds)
Very long (hours?)
Spatial Low High Very low
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Can we exploit differences between the systems?
Give a sequence of flashes
Sustained firing of ipRGC… flashes “look” continuous
Time between flashes = recovery of rod/cone sensitivity
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0 60 120 180 240
-0.5
0.0
0.5
1.0
1.5
2.0
2.5
3.0
3.5
Corre
cted
∆φ
ISI (s)
subject exposed to flash sequence
subjects (n=8) exposed to continuous light [mean ± SD]
JCI 2016
subjects (n=7) exposed to continuous dark [mean ± SD]
Sequence of flashes more potent than continuous light
5,000x less light yields 3x greater phase shift
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Phase shift without impact on sleep
-0.8
-0.6
-0.4
-0.2
0.0
0.2
0.4
0.6
Phas
e Ch
ange
(hrs
)
SLEEP STAGES Before During Paired t-test
Wake (min) 5.3 ± 6.7 14.4 ± 21.6 n.s S1 (min) 19.4 ± 6.3 20.3 ± 14.0 n.s S2 (min) 26.1 ± 12.1 19.5 ± 16.6 n.s
S3/4 (min) 6.8 ± 10.9 4.5 ± 12.7 n.s REM (min) 2.4 ± 5.6 1.6 ± 3.0 n.s
# transitions 23.5 ± 8.1 21.3 ± 16.2 n.s
POWER SPECTRUM (µV/cm²) Before During
Paired t-test
Delta 206000 ± 143000 148000 ± 190000 n.s Theta 10400 ± 6040 8220 ± 5840 n.s Alpha 5920 ± 4190 5000 ± 3210 n.s Sigma 1100 ± 505 1220 ± 866 n.s Beta 1760 ± 1370 1950 ± 1450 n.s
Gamma 147 ± 236 178 ± 240 n.s
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Clinical utility?
Phase shifting during sleep without disturbing sleep:
(Pre)Adaptation to jet lag Delayed sleep in teens
Advanced sleep in elderly Erratic sleep schedules
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Effective in Teens Light + CBT (n=15) Time d
Sleep Onset Latency (min) Baseline 19.91 ± 18.67
-0.71*** End-Treatment 11.25 ± 6.81 Sleep Onset Time (hh:mm) Baseline 24:21 ± 0:47
-0.96*** End-Treatment 23:31 ± 0:47 Total Sleep Time (min) Baseline 438.9 ± 29.99
1.07*** End-Treatment 482.1 ± 37.08 Sleep Efficiency (%) Baseline 0.91 ± 0.05
0.91*** End-Treatment 0.95 ± 0.03 Out of Bed (hh:mm) Baseline 8:02 ± 0:34
-0.31 End-Treatment 7:22 ± 0:37 Sleep Quality (1-5) Baseline 3.35 ± 0.60
0.65*** End-Treatment 3.86 ± 0.59
faster to fall asleep
50 min earlier bedtime
43 min more sleep
more efficient
better quality
Critical component: passive therapy
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Can we exploit differences between the systems?
Rods Cones Melanopsin Spectrum 505 nm 555 nm 480 nm Intensity Very low Medium → High High Duration On/Off On/Off Sustained,
integrative History Very short
(seconds) Very short (seconds)
Very long (hours?)
Spatial Low High Very low
When might it be beneficial to activate vision and not non-image forming circuits?
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Nocturnal Ambulation in Elderly
Light exposure during nocturia increases insomnia
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p= 0.05 Sleep onset
latency
Balance
Mandy McBean, PhD Acuity
Nominal impact on ambulation
Orange/red light (28 lux) vs.
White light (28 lux) vs.
Dim white light (<0.5 lux)
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Rods Cones Melanopsin Spectrum 505 nm 555 nm 480 nm Intensity Very low Medium → High High Duration On/Off On/Off Sustained,
integrative History Very short
(seconds) Very short (seconds)
Very long (hours?)
Spatial Low High Very low
Can we exploit differences between the systems?
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Daytime light exposure modifies evening light responses
-0.5 0.0 0.5 1.0 1.5 2.0-500
0
500
1000
1500
2000
2500
% C
hang
e in
Day
time
Ligh
t
Change in Circadian Phase (hrs)-2.5 -2.0 -1.5 -1.0 -0.5 0.0
-200
0
200
400
% C
hang
e in
Day
time
Ligh
t
Change in Circadian Phase (hrs)
Morning light Evening light
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Daytime light exposure modifies evening light responses
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Lab members and collaborators (selected) Raymond Najjar (flash frequency) Kate Kaplan (teen study) Amanda McBean (balance study) Norman Ruby (flash during sleep) Leah Friedman (relative light) Funding of presented data National Heart Lung and Blood Institute (NIH) National Institute of Child Health and Human Development (NIH) National Institute on Aging (NIH) Department of Veterans Affairs